磷光
卤化物
金属卤化物
材料科学
蒸发
金属
惰性
光化学
激子
闪烁
光电子学
混合材料
无机化学
发光
闪烁体
荧光
纳米技术
卤化银
光发射
星团(航天器)
作者
Linyuan Lian,Ming Ai,Danrong Xiong,Tao Liang,Jibin Zhang,Mochen Jia,Yangang Liu,Zhuangzhuang Ma,Xu Chen,Yanbing Han,Yongtao Tian,Xinjian Li,Zhifeng Shi
出处
期刊:Chemical Science
[Royal Society of Chemistry]
日期:2025-11-03
卷期号:17 (1): 500-510
被引量:2
摘要
Room-temperature phosphorescence (RTP) in hybrid metal halide glasses offers promising applications in optoelectronics and anti-counterfeiting, yet achieving tunable RTP properties remains challenging. Here, we report a solvent-assisted rapid evaporation method to synthesize a series of zero-dimensional (0D) butyltriphenylphosphonium-based (BuTPP+) hybrid metal halide glasses with the composition (BuTPP)2MCl2X2 (M = Zn, Cd; X = Cl, Br, I). By incorporating optically inert heavy-atom-containing metal halide units [MCl2X2]2-, we demonstrate precise regulation of RTP lifetimes via the heavy-atom effect, with lifetimes decreasing from 608.6 ms for (BuTPP)2ZnCl4 to 146 ms for (BuTPP)2CdCl2Br2 as the atomic number of inorganic metal halide units increases. Notably, when the atomic number exceeds 170 (e.g., [ZnCl2I2]2- and [CdCl2I2]2-), self-trapped exciton (STE) emissions dominate, completely suppressing organic afterglow. Furthermore, (BuTPP)2ZnCl4 glass exhibits excitation-dependent multicolor phosphorescence due to aggregate cluster luminescence. These glasses showcase dual-mode emissions (RTP/STE) and are successfully applied in shape-controllable anti-counterfeiting and high-resolution X-ray scintillation imaging (10 lp mm-1). This work provides a facile vitrification strategy and design principles for hybrid RTP materials with tailored photophysical properties.
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